SLIDING MACHINE THAT CAN PROCESS TWO DIFFERENT SHEETS AT THE SAME TIME AND GIVE VARIABLE FORMS

Abstract

A sliding machine includes: at least one slide fixed to side parts on an upper surface of a main chassis, a second form roller unit positioned to move horizontally on the slide and located between a first form roller unit and a third form roller unit, a servo motor, two spindles of motion that transmit the motion drive to the rollers in a first form roller group, a second form roller group and a third form roller group through the wedge channel formed from one end to the other, at least one motion spindle gear fixed to the end of the spindle of motion, a motor which gives the driving power to the spindle of motion, a reducer positioned on the output shaft of the motor, at least one reducer gear sequentially fixed on the output shaft of the reducer and two sheet metal moving rails.

Claims

1. A sliding machine for simultaneously processing two different sheet metals and giving variable forms, comprising: a main frame, a first form roller unit positioned on a left side of the main frame, and a first form roller group, positioned on a right side of the main frame, a third form roller group, a third form roller unit, sheet metal support wedges configured to serve as support during an entry of a sheet into a system, a slide fixed to side parts on an upper surface of the main frame, a second form roller unit, positioned to move horizontally on the slide and located between the first form roller unit and the third form roller unit, a servo motor configured to give a horizontal motion drive to the second form roller unit, two spindles of motion configured to transmit a motion drive to rollers in the first form roller group, a second form roller group and the third form roller group through a wedge channel formed from one end to the other, a motion spindle gear fixed to an end of each of the two spindles of motion, a motor configured to give a driving power to the two spindles of motion, a reducer positioned on an output shaft of the motor, a reducer gear sequentially fixed on an output shaft of the reducer, and two sheet metal moving rails that contain at least one wheeled structure in order to facilitate a progress of the sheet entering the system and whose edges will be processed on a line.

2. The sliding machine according to claim 1, wherein the second form roller unit has the second form roller group fixed on both sides.

3. The sliding machine according to claim 1, wherein the sliding machine has a movement motion spindle gear associated with the reducer gear.

4. The sliding machine according to claim 1, wherein the sliding machine has an adjustment arm, and the first form roller unit and the third form roller unit are provided on the adjustment arm by screw threads to allow precise movement in a horizontal plane.

5. The sliding machine according to claim 4, wherein the adjustment arm performs a manual movement.

6. The sliding machine according to claim 1, wherein each of the two sheet metal moving rails has pin holes for height adjustment.

7. The sliding machine according to claim 1, wherein the first form roller unit, the second form roller unit and the third form roller unit have at least one sledding foot configured to act as a bedding for horizontal movement on the same slide.

8. The sliding machine according to claim 1, wherein the sliding machine has an electric or hydraulic motor that is used instead of the servo motor.

9. The sliding machine according to claim 1, wherein the sliding machine has a servo or hydraulic motor that is used instead of the motor.

10. The sliding machine according to claim 1, wherein the sliding machine has at least one pulley that is used instead of reducer gears and motion spindle gear.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0011] The invention will be described with reference to the accompanying figures, so that the features of the invention will be more clearly understood and appreciated, but the purpose of this is not to limit the invention to these certain regulations. On the contrary, it is intended to cover all alternatives, changes and equivalences that can be included in the area of the invention defined by the accompanying claims. The details shown should be understood that they are shown only for the purpose of describing the preferred embodiments of the present invention and are presented in order to provide the most convenient and easily understandable description of both the shaping of methods and the rules and conceptual features of the invention. In these drawings.

[0012] FIG. 1 General perspective view of the system.

[0013] FIG. 2 General perspective view of the middle form pulley unit moved to the left.

[0014] FIG. 3 General perspective view of the middle form pulley unit moved to the right.

[0015] FIG. 4 General perspective view of the system showing the elements at the top and bottom.

[0016] FIG. 5 Top view of the system.

[0017] FIG. 6 Close-up perspective view of the middle form roller unit in the system.

[0018] The figures to help understand the present invention are numbered as indicated in the attached image and are given below along with their names.

DESCRIPTION OF REFERENCES

[0019] 1. Main chassis [0020] 2. Slide [0021] 3. Form roller unit 1 [0022] 4. Form roller group 1 [0023] 5. Form roller unit 2 [0024] 6. Form roller group 2 [0025] 7. Form roller unit 3 [0026] 8. Form roller group 3 [0027] 9. Servo motor [0028] 10. Motor [0029] 11. Reducer [0030] 12. Reducer gear [0031] 13. Adjustment arm [0032] 14. Spindle of motion [0033] 14.1. Wedge channel [0034] 15. Motion spindle gear [0035] 16. Sledding feet [0036] 17. Sheet metal support wedge [0037] 18. Sheet metal moving rail

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0038] The parts that make up the system that is the subject of the invention are basically; main chassis (1), slide (2), form roller unit 1 (3), form roller group 1 (4), form roller unit 2 (5), form roller group 2 (6), form roller unit 3 (7), form roller group 3 (8), servo motor (9), motor (10), reducer (11), reduction gear (12), adjustment arm (13), Spindle of motion (14), Motion spindle gear (15), sledding feet (16), sheet metal support wedge (17) and sheet metal movement rail (18). The spindle of motion (14) has a wedge channel (14.1) formed from one end to the other.

[0039] In FIG. 1, the general perspective view of the system is given. The slide (2) is fixed on the main chassis (1) and on both sides. Form roller unit 1 (3) with form roller group 1 (4) to the left of the main frame (1), form roller unit 3 (7) with form roller group 3 (8) to the right of the main frame (1) and form roller unit 2 (5) with form roller group 2 (6) is located right in the middle of the main chassis (1). There are other roller units on the right and left of the form roller unit 2 (5). Form roller unit 2 (5), unlike other roller units, has form roller group 2 (6) fixed on both sides. This group of rollers can be symmetrical or asymmetrical to each other, but their structures can also be the same or different. Servo motor (9) and motor (10) group are fixed to the lower part of the main chassis (1). There is at least one reduction gear (12) on the reducer (11) part of the motor (10) positioned on the motor shaft. There is an adjustment arm (13) at the back of the form roller unit 1 (3) and the form roller unit 3 (7) groups. This adjustment arm (13) has screw threads formed on it. The spindle of motion (14) associated with the gears in the form roller group 1 (4), the form roller group 2 (6) and the form roller group 3 (8) embedded in each of the form roller units, through the wedge channel (14.1) formed from one end to the other. These shafts are two or more. Under each of the form roller units, there are sledding feet (16) that assist the movement on the Slide (2). Sheet metal support wedges (17), which serve to support the sheet metal that will enter the system, are fixed to the input and output sides of the form roller groups. The sheet metal movement rail (18) located between the form roller units, on the other hand, provide the forward movement of the sheet, which is processed on the form roller groups, during the process, by means of the frollery hinged wheels on it (FIG. 6). The height distance of the sheet metal movement rail (18) to the form roller groups can be adjusted, and this adjustment can be provided manually with the pin holes on it, as well as automatically with the pistons.

[0040] In FIGS. 2-3 visuals, the form roller unit 2 (5) with the form roller group 2 (6) moving horizontally on the slide (2) by means of the servo motor (9) is seen. An electric motor or hydraulic motor can be integrated as an alternative to the servo motor (9). The horizontal movement of the form roller unit 1 (3) with form roller group 1 (4) and the form roller unit 3 (7) with form roller group 3 (8) on the slide (2) can be adjusted on the adjusting arm (13) provided with screw threads. The horizontal movement here is more sensitive, so precision machining can be done. This arm (13) can be moved manually as well as by any motor drive.

[0041] In FIG. 4, the servo motor (9), motor (10), reducer (11) and reducer gears (12) located at the bottom of the main chassis (1) are seen. The motor (10) transmits the driving power to the reducer (11) and the reducer (11) transmits the driving force to the reduction gears (12), thereby enabling the spindle of motion (14) to make circular motion. In FIG. 5, motion drive transmissions can be seen more clearly. Here, a servo motor or hydraulic motor can be integrated as an alternative to the motor (10). Spindle of motion (14) receives the torque coming from the reducer gears (12) through the motion spindle gear (15) on it. The movement drive is transmitted by chain. Alternatively, a pulley can be used instead of the reducer gears (12) and the motion spindle gear (15), and a belt can be used instead of the chain.